US20140102460A1 - Method and apparatus for treating obstructive sleep apnea (osa) - Google Patents

Method and apparatus for treating obstructive sleep apnea (osa) Download PDF

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US20140102460A1
US20140102460A1 US14/055,159 US201314055159A US2014102460A1 US 20140102460 A1 US20140102460 A1 US 20140102460A1 US 201314055159 A US201314055159 A US 201314055159A US 2014102460 A1 US2014102460 A1 US 2014102460A1
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corridor
elastic filament
head
tongue
inserter tube
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US10314736B2 (en
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Peter J. Catalano
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Cook Medical Technologies LLC
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61FFILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
    • A61F5/00Orthopaedic methods or devices for non-surgical treatment of bones or joints; Nursing devices; Anti-rape devices
    • A61F5/56Devices for preventing snoring
    • A61F5/566Intra-oral devices

Definitions

  • This invention relates to surgical methods and apparatus in general, and more particularly to surgical methods and apparatus for treating obstructive sleep apnea (OSA).
  • OSA obstructive sleep apnea
  • Obstructive sleep apnea is a sleep disorder characterized by intermittent obstruction of the supralaryngeal airway. Such intermittent obstruction of the supralaryngeal airway is commonly caused by the tongue falling backward in the throat while the patient is sleeping so as to obstruct the airway. OSA typically results in significant sleep disruption, leading to excessive daytime drowsiness for the patient. OSA may also lead to cardiovascular and pulmonary disease due to the obstruction of the supralaryngeal airway, particularly where the apneal episodes last for 60 seconds or more.
  • OSA obstructive sleep apnea
  • the present invention provides a new method and apparatus for treating obstructive sleep apnea (OSA).
  • OSA obstructive sleep apnea
  • apparatus for treating obstructive sleep apnea comprising:
  • a tethering device comprising:
  • a method for treating obstructive sleep apnea comprising:
  • a tethering device comprising:
  • FIGS. 1 and 2 are schematic views showing a novel tethering device formed in accordance with the present invention
  • FIGS. 3 and 4 show further details of the elastic filament of the novel tethering device shown in FIGS. 1 and 2 ;
  • FIGS. 5-8 show further details of the head of the novel tethering device shown in FIGS. 1 and 2 , wherein FIG. 5 shows the complete head, FIG. 6 shows the head with its head stiffener and overcoat removed, FIG. 7 shows the head with its head stiffener in place but the overcoat removed, and FIG. 8 shows the head stiffener alone;
  • FIGS. 9-12 show novel instrumentation for deploying the novel tethering device shown in FIGS. 1 and 2 ;
  • FIGS. 13-33 show one preferred method (and associated apparatus) for deploying the novel tethering device shown in FIGS. 1 and 2 using the novel instrumentation shown in FIGS. 9-12 ;
  • FIGS. 34-36 show an alternative head for the novel tethering device shown in FIGS. 1 and 2 ;
  • FIGS. 37 and 38 show another alternative head for the novel tethering device shown in FIGS. 1 and 2 ;
  • FIG. 39 shows still another alternative head for the novel tethering device shown in FIGS. 1 and 2 ;
  • FIG. 40 shows yet another alternative head for the novel tethering device shown in FIGS. 1 and 2 ;
  • FIGS. 41-43 show various configurations of a lighted corridor trocar which may be used in accordance with the present invention.
  • the present invention provides a new method and apparatus for treating obstructive sleep apnea (OSA).
  • OSA obstructive sleep apnea
  • tethering device 5 for restraining rearward movement of the tongue so as to prevent the tongue from obstructing the supralaryngeal airway while the patient is sleeping, whereby to treat obstructive sleep apnea.
  • tethering device 5 generally comprises an elastic filament 10 having a head 15 on its distal end and a series of enlargements 20 (e.g., frustoconical enlargements) on its proximal end.
  • FIGS. 3 and 4 show further details of elastic filament 10 .
  • elastic filament 10 comprises an elastomeric material having means 25 on its distal end for mounting head 15 to the distal end of the filament, and the aforementioned enlargements 20 (e.g., frustoconical enlargements) on its proximal end.
  • enlargements 20 disposed on the proximal end of elastic filament 10
  • FIGS. 5-8 show further details of head 15 .
  • head 15 comprises a large disk-like structure 30 ( FIG. 5 ) formed out of a relatively soft, pliable, atraumatic material.
  • This large disk-like structure 30 has a patterned recess 35 ( FIG. 6 ) formed in its proximal side for receiving a head stiffener 40 ( FIGS. 7 and 8 ), whereby to provide head 15 with appropriate structural integrity for its intended purpose (i.e., to provide a bearing structure at the back of the tongue so as to allow tethering device 5 to restrain rearward movement of the tongue, as will hereinafter be discussed).
  • An overcoat 45 FIG.
  • patterned recess 35 and head stiffener 40 each have a multi-lobe configuration (e.g., four lobes as shown, or three lobes, or two lobes, or five lobes, etc.).
  • head stiffener 40 is preferably formed out of superelastic material, e.g., Nitinol or another superelastic metal alloy, whereby to permit head stiffener 40 to be significantly deformed and thereafter elastically re-form, as will hereinafter be discussed.
  • head 15 effectively comprises a flexible memory structure disposed at the distal end of elastic filament 10 , and this flexible memory head provides a sufficient bearing structure to restrain rearward movement of the tongue, as will hereinafter be discussed.
  • this instrumentation comprises a corridor sheath 50 having a lumen 51 extending therethrough ( FIG. 9 ), a corridor trocar 55 terminating in a sharp distal tip 56 ( FIG. 10 ), an outer inserter tube 60 having a lumen 61 extending therethrough ( FIG. 11 ), and an inner inserter tube 62 having a lumen 63 extending therethrough and having a head 64 attached to its proximal end.
  • corridor trocar 55 is sized to fit within lumen 51 of corridor sheath 50
  • outer inserter tube 60 is sized to fit within lumen 51 of corridor sheath 50
  • inner inserter tube 62 is sized to fit within lumen 61 of outer inserter tube 60
  • lumen 63 of inner inserter tube 62 is sized to receive the elongated body (sometimes hereinafter referred to as the “shaft”) of elastic filament 10 .
  • the novel tethering device 5 of FIGS. 1-8 is intended to be deployed in the native anatomy of a patient ( FIG. 13 ), preferably using the corridor sheath 50 , corridor trocar 55 , outer inserter tube 60 and inner inserter tube 62 of FIGS. 9-12 , so as to restrain rearward movement of the tongue T and thereby prevent tongue T from obstructing the supralaryngeal airway A of the patient while the patient is sleeping, whereby to treat obstructive sleep apnea. Also shown in FIG. 13 is the lower mandible M of the patient.
  • corridor sheath 50 having corridor trocar 55 disposed therein so that the sharp distal tip 56 of corridor trocar 55 extends out the distal end of corridor sheath 50 , is inserted upward and backward through tongue T. Distal movement of the assembled corridor sheath 50 /corridor trocar 55 continues until the distal end of corridor sheath 50 emerges through the back of tongue T.
  • corridor trocar 55 is removed, from posterior to anterior (i.e., proximally), leaving corridor sheath 50 extending upward and backward through tongue T, in the manner shown in FIG. 15 .
  • outer inserter tube 60 and inner inserter tube 62 are used to advance tethering device 5 through lumen 51 of the emplaced corridor sheath 50 .
  • tethering device 5 is loaded into outer inserter tube 60 by folding head 15 towards the proximal end of the “shaft” of elastic filament 10 so that the lobes of head 15 are substantially aligned with, and substantially parallel to, the shaft of elastic filament 10 ( FIG. 16 ), or folding head 15 away from the proximal end of the shaft of elastic filament 10 so that they fold onto themselves and extend beyond the distal end of the shaft of elastic filament 10 ( FIG. 17 ).
  • inner inserter tube 62 is slid over the proximal end of elastic filament 10 of tethering device 5 , in a distal-to-proximal direction, until the folded head 15 of tethering device 5 is contacted and engaged by the distal end of inner inserter tube 62 ( FIG. 18 ). It will be appreciated that, at this point, head 15 of tethering device 5 is folded and housed within outer inserter tube 60 and the shaft of elastic filament 10 extends back through lumen 63 of inner inserter tube 62 (which is itself disposed within lumen 61 of outer inserter tube 60 ).
  • the assembly shown in FIG. 18 may be assembled at the time of use (e.g., on a “back table” in an operating room) or at the time of manufacture (in which case it is packaged and shipped in the form shown in FIG. 18 ).
  • This “tube-over-tube” assembly allows tethering device 5 to be quickly and easily advanced through lumen 51 of the emplaced corridor sheath 50 ( FIG. 15 ), such that tethering device 5 can be properly positioned in the patient. More particularly, with head 15 of tethering device 5 folded and housed within lumen 61 of outer inserter tube 60 , and with the shaft of elastic filament 10 extending back through lumen 63 of inner inserter tube 62 , the assembly of outer inserter tube 60 , tethering device 5 , and inner inserter tube 62 is inserted into the proximal end of lumen 51 of corridor sheath 50 and then advanced, in a proximal-to-distal manner ( FIG. 22 ).
  • head 64 of inner inserter tube 62 is moved further distally until it rests against the proximal end of corridor sheath 50 ( FIG. 24 ), causing the folded head 15 to emerge from the distal end of outer inserter tube 60 , whereupon head 15 will unfold back to its original pre-folded shape due to the memory effects of stiffener 40 in head 15 ( FIG. 24 ).
  • head stiffener 40 out of a superelastic material (e.g., Nitinol or another superelastic metal alloy), the folding of head 15 in outer inserter tub 60 is facilitated, and the unfolding of head 15 as it emerges from the distal end of outer inserter tube 60 will also be facilitated.
  • a superelastic material e.g., Nitinol or another superelastic metal alloy
  • outer inserter tube 60 and inner inserter tube 62 are used together to advance the folded head 15 of tethering device 5 through corridor sheath 50 (and hence through tongue T), with the head 15 of the tethering device being held in a folded condition within outer inserter tube 60 until the distal end of outer inserter tube 60 emerges from the distal end of corridor sheath 50 .
  • Inner inserter tube 62 is then used to eject folded head 15 out of the distal end of outer inserter tube 60 , whereupon folded head 15 unfolds, with the unfolded head 15 residing on the far side of tongue T.
  • inner inserter tube 62 and outer inserter tube 60 are withdrawn proximally back through corridor sheath 50 , leaving elastic filament 10 extending back through lumen 51 of corridor sheath 50 (and hence elastic filament 10 extending back through tongue T).
  • corridor sheath 50 is removed, leaving tethering device 5 extending through tongue T, with head 15 of tethering device 5 sprung open adjacent the back of tongue T ( FIG. 25 ).
  • Bone anchor 65 is deployed in the lower mandible M ( FIG. 26 ).
  • Bone anchor 65 may be a so-called screw-type bone anchor or another type of bone anchor (e.g., a barb-type bone anchor, etc.).
  • bone anchor 65 preferably includes a mount 66 for mounting the proximal end of elastic filament 10 to the bone anchor.
  • Mount 66 preferably has a hole 67 and a slot 68 formed therein.
  • a seat 69 is preferably formed at the end of slot 68 .
  • Mount 66 preferably also includes a hole 70 for securing mount 66 to bone anchor 65 via a screw 71 .
  • Mount 66 may be mounted to bone anchor 65 either before bone anchor 65 is deployed in mandible M or after bone anchor 65 has been deployed in mandible M.
  • elastic filament 10 of tethering device 5 is secured to mount 66 of bone anchor 65 under tension ( FIG. 33 ) so that head 15 of tethering device 5 is pulled flush against the back surface of the tongue and supports the tongue from backward displacement when at rest. More particularly, elastic filament 10 of tethering device 5 is secured to bone anchor 65 by passing enlargements 20 (e.g., frustoconical enlargements) on the proximal end of filament 10 through hole 67 of mount 66 and then moving filament 10 laterally along slot 68 so as to seat an enlargement 20 in seat 69 of mount 66 .
  • enlargements 20 e.g., frustoconical enlargements
  • tethering device 5 essentially elastically tethers the back of tongue T to a fixed anatomic point (i.e., the lower mandible M, where bone anchor 65 is set) using an elastic filament 10 terminating in an atraumatic head 15 .
  • tongue T tethered in this manner, normal function of the tongue is retained (e.g., during talking and swallowing), yet rearward movement of the tongue is restrained while the patient is sleeping, thereby preventing the tongue from obstructing the supralaryngeal airway A while the patient is sleeping, and thus treating obstructive sleep apnea.
  • head 15 will provide the necessary structural integrity while being atraumatic to the tissue. Furthermore, by virtue of the low profile of head 15 vis-à-vis the back of the tongue, the head of the tethering device does not interfere with swallowing action or breathing.
  • a plurality of holes 71 are formed on the large disk-like structure 30 of head 15 .
  • Holes 71 can be advantageous in the event that the tethering device 5 should fail and head 15 should be aspirated, since holes 71 can prevent head 15 from completely obstructing an air passageway (which may sometimes also be referred to as an “airway”).
  • head 15 can be formed with the material between the lobes removed, e.g., at 75 , whereby to further facilitate head folding and to further reduce the risk that head 15 could obstruct an airway in the event of device failure and aspiration.
  • the lobes can be rounded off so as to reduce device mass and so as to render them even more atraumatic to the tissue.
  • a rim 80 of material can extend across the open space 75 which is located between the lobes, at the periphery of the head, so as to provide additional head integrity, and rendering the head even more atraumatic, while still protecting against airway blockage in the event of device failure and aspiration.
  • tethering device 5 is set within tongue T using X-ray visualization.
  • corridor trocar 55 may include a light source 85 disposed within its distal end, and a window 90 for permitting light from light source 85 to project out the distal end of corridor trocar 55 .
  • the light source may be disposed at the proximal end of corridor trocar 55 and light from the light source delivered to the distal end of corridor trocar 55 by means of an optical fiber 95 (or a light pipe, etc.).
  • corridor trocar 55 In this form of the invention, light is projected from the distal end of corridor trocar 55 while the corridor trocar (and its associated corridor sheath 50 ) are advanced through tongue T—as this occurs, a scope is used to observe the back of the tongue and, as the trocar nears the surface of the tissue, the light from corridor trocar 55 is used to gauge proper positioning of corridor trocar 55 (and hence its associated corridor sheath 50 ), whereby to ensure subsequent proper positioning of tethering device 5 within the tongue and tongue base. It is anticipated that proper placement of head 15 will be important to the effectiveness of device 5 .

Abstract

A method for treating obstructive sleep apnea, the method comprising:
    • providing a tethering device comprising:
      • an elastic filament having a distal end and a proximal end; and
      • a flexible memory head mounted to the distal end of the elastic filament;
    • advancing the tethering device through the tongue of a patient so that the flexible memory head of the tethering device is disposed against the back of the tongue and the elastic filament of the tethering device extends through the tongue; and
    • securing the proximal end of the elastic filament to the mandible of the patient under tension, whereby to restrain rearward movement of the tongue while the patient is sleeping.

Description

    REFERENCE TO PENDING PRIOR PATENT APPLICATION
  • This patent application claims benefit of pending prior U.S. Provisional Patent Application Ser. No. 61/714,596, filed Oct. 16, 2012 by Peter J. Catalano for METHOD AND APPARATUS FOR TREATING OBSTRUCTIVE SLEEP APNEA (OSA) (Attorney's Docket No. CATALANO-1 PROV), which patent application is hereby incorporated herein by reference.
  • FIELD OF THE INVENTION
  • This invention relates to surgical methods and apparatus in general, and more particularly to surgical methods and apparatus for treating obstructive sleep apnea (OSA).
  • BACKGROUND OF THE INVENTION
  • Obstructive sleep apnea (OSA) is a sleep disorder characterized by intermittent obstruction of the supralaryngeal airway. Such intermittent obstruction of the supralaryngeal airway is commonly caused by the tongue falling backward in the throat while the patient is sleeping so as to obstruct the airway. OSA typically results in significant sleep disruption, leading to excessive daytime drowsiness for the patient. OSA may also lead to cardiovascular and pulmonary disease due to the obstruction of the supralaryngeal airway, particularly where the apneal episodes last for 60 seconds or more.
  • Various treatments have been developed to address OSA. The more conservative treatments include prescribing weight loss to reduce tissue mass, pharmaceutical treatments, the wearing of oral appliances while sleeping, and the use of continuous positive airway pressure (CPAP) devices to maintain patency in the supralaryngeal airway. However, where such conservative treatments are not effective, or where such conservative treatments are not tolerated by the patient, a surgical procedure may be needed to prevent the tongue from obstructing the supralaryngeal airway while the patient is sleeping. Unfortunately, all of the surgical procedures developed to date suffer from one or more significant disadvantages, including poor performance, excessive trauma to the patient (e.g., the tongue and/or jaw tissue), excessive discomfort for the patient, etc.
  • Accordingly, a new method and apparatus is needed to treat obstructive sleep apnea (OSA).
  • SUMMARY OF THE INVENTION
  • The present invention provides a new method and apparatus for treating obstructive sleep apnea (OSA). Significantly, this new method and apparatus is minimally-invasive, whereby to minimize trauma to the patient and discomfort for the patient.
  • In one preferred form of the invention, there is provided apparatus for treating obstructive sleep apnea, the apparatus comprising:
  • a tethering device comprising:
      • an elastic filament having a distal end and a proximal end; and
      • a flexible memory head mounted to the distal end of the elastic filament.
  • In another preferred form of the invention, there is provided a method for treating obstructive sleep apnea, the method comprising:
  • providing a tethering device comprising:
      • an elastic filament having a distal end and a proximal end; and
      • a flexible memory head mounted to the distal end of the elastic filament;
  • advancing the tethering device through the tongue of a patient so that the flexible memory head of the tethering device is disposed against the back of the tongue and the elastic filament of the tethering device extends through the tongue; and
  • securing the proximal end of the elastic filament to the mandible of the patient under tension, whereby to restrain rearward movement of the tongue while the patient is sleeping.
  • BRIEF DESCRIPTION OF THE DRAWINGS
  • These and other objects and features of the present invention will be more fully disclosed or rendered obvious by the following detailed description of the preferred embodiments of the invention, which is to be considered together with the accompanying drawings wherein like numbers refer to like parts and further wherein:
  • FIGS. 1 and 2 are schematic views showing a novel tethering device formed in accordance with the present invention;
  • FIGS. 3 and 4 show further details of the elastic filament of the novel tethering device shown in FIGS. 1 and 2;
  • FIGS. 5-8 show further details of the head of the novel tethering device shown in FIGS. 1 and 2, wherein FIG. 5 shows the complete head, FIG. 6 shows the head with its head stiffener and overcoat removed, FIG. 7 shows the head with its head stiffener in place but the overcoat removed, and FIG. 8 shows the head stiffener alone;
  • FIGS. 9-12 show novel instrumentation for deploying the novel tethering device shown in FIGS. 1 and 2;
  • FIGS. 13-33 show one preferred method (and associated apparatus) for deploying the novel tethering device shown in FIGS. 1 and 2 using the novel instrumentation shown in FIGS. 9-12;
  • FIGS. 34-36 show an alternative head for the novel tethering device shown in FIGS. 1 and 2;
  • FIGS. 37 and 38 show another alternative head for the novel tethering device shown in FIGS. 1 and 2;
  • FIG. 39 shows still another alternative head for the novel tethering device shown in FIGS. 1 and 2;
  • FIG. 40 shows yet another alternative head for the novel tethering device shown in FIGS. 1 and 2; and
  • FIGS. 41-43 show various configurations of a lighted corridor trocar which may be used in accordance with the present invention.
  • DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
  • The present invention provides a new method and apparatus for treating obstructive sleep apnea (OSA). Significantly, this new method and apparatus is minimally-invasive, whereby to minimize trauma to the patient and discomfort for the patient.
  • More particularly, in accordance with the present invention, and looking now at FIGS. 1 and 2, there is provided a novel tethering device 5 for restraining rearward movement of the tongue so as to prevent the tongue from obstructing the supralaryngeal airway while the patient is sleeping, whereby to treat obstructive sleep apnea. As seen in FIGS. 1 and 2, tethering device 5 generally comprises an elastic filament 10 having a head 15 on its distal end and a series of enlargements 20 (e.g., frustoconical enlargements) on its proximal end.
  • FIGS. 3 and 4 show further details of elastic filament 10. In general, elastic filament 10 comprises an elastomeric material having means 25 on its distal end for mounting head 15 to the distal end of the filament, and the aforementioned enlargements 20 (e.g., frustoconical enlargements) on its proximal end. As will hereinafter be discussed, enlargements 20 (disposed on the proximal end of elastic filament 10) facilitate securing the proximal end of elastic filament 10 to a bone anchor secured to the lower mandible of the patient, as will hereinafter be discussed in further detail.
  • FIGS. 5-8 show further details of head 15. In general, head 15 comprises a large disk-like structure 30 (FIG. 5) formed out of a relatively soft, pliable, atraumatic material. This large disk-like structure 30 has a patterned recess 35 (FIG. 6) formed in its proximal side for receiving a head stiffener 40 (FIGS. 7 and 8), whereby to provide head 15 with appropriate structural integrity for its intended purpose (i.e., to provide a bearing structure at the back of the tongue so as to allow tethering device 5 to restrain rearward movement of the tongue, as will hereinafter be discussed). An overcoat 45 (FIG. 5) is set atop head stiffener 40 so as to seal head stiffener 40 within patterned recess 35 of the large disk-like structure 30. In one preferred form of the invention, patterned recess 35 and head stiffener 40 each have a multi-lobe configuration (e.g., four lobes as shown, or three lobes, or two lobes, or five lobes, etc.). And, in one preferred form of the invention, head stiffener 40 is preferably formed out of superelastic material, e.g., Nitinol or another superelastic metal alloy, whereby to permit head stiffener 40 to be significantly deformed and thereafter elastically re-form, as will hereinafter be discussed. It will be appreciated that, on account of the foregoing construction, head 15 effectively comprises a flexible memory structure disposed at the distal end of elastic filament 10, and this flexible memory head provides a sufficient bearing structure to restrain rearward movement of the tongue, as will hereinafter be discussed.
  • Looking now at FIGS. 9-12, there is shown preferred instrumentation for deploying tethering device 5 in the anatomy of a patient. In general, this instrumentation comprises a corridor sheath 50 having a lumen 51 extending therethrough (FIG. 9), a corridor trocar 55 terminating in a sharp distal tip 56 (FIG. 10), an outer inserter tube 60 having a lumen 61 extending therethrough (FIG. 11), and an inner inserter tube 62 having a lumen 63 extending therethrough and having a head 64 attached to its proximal end. As will hereinafter be discussed below, corridor trocar 55 is sized to fit within lumen 51 of corridor sheath 50, outer inserter tube 60 is sized to fit within lumen 51 of corridor sheath 50, inner inserter tube 62 is sized to fit within lumen 61 of outer inserter tube 60, and lumen 63 of inner inserter tube 62 is sized to receive the elongated body (sometimes hereinafter referred to as the “shaft”) of elastic filament 10.
  • The novel tethering device 5 of FIGS. 1-8 is intended to be deployed in the native anatomy of a patient (FIG. 13), preferably using the corridor sheath 50, corridor trocar 55, outer inserter tube 60 and inner inserter tube 62 of FIGS. 9-12, so as to restrain rearward movement of the tongue T and thereby prevent tongue T from obstructing the supralaryngeal airway A of the patient while the patient is sleeping, whereby to treat obstructive sleep apnea. Also shown in FIG. 13 is the lower mandible M of the patient.
  • More particularly, and looking now at FIG. 14, corridor sheath 50, having corridor trocar 55 disposed therein so that the sharp distal tip 56 of corridor trocar 55 extends out the distal end of corridor sheath 50, is inserted upward and backward through tongue T. Distal movement of the assembled corridor sheath 50/corridor trocar 55 continues until the distal end of corridor sheath 50 emerges through the back of tongue T.
  • Then corridor trocar 55 is removed, from posterior to anterior (i.e., proximally), leaving corridor sheath 50 extending upward and backward through tongue T, in the manner shown in FIG. 15.
  • Next, outer inserter tube 60 and inner inserter tube 62 are used to advance tethering device 5 through lumen 51 of the emplaced corridor sheath 50.
  • More particularly, tethering device 5 is loaded into outer inserter tube 60 by folding head 15 towards the proximal end of the “shaft” of elastic filament 10 so that the lobes of head 15 are substantially aligned with, and substantially parallel to, the shaft of elastic filament 10 (FIG. 16), or folding head 15 away from the proximal end of the shaft of elastic filament 10 so that they fold onto themselves and extend beyond the distal end of the shaft of elastic filament 10 (FIG. 17). Then inner inserter tube 62 is slid over the proximal end of elastic filament 10 of tethering device 5, in a distal-to-proximal direction, until the folded head 15 of tethering device 5 is contacted and engaged by the distal end of inner inserter tube 62 (FIG. 18). It will be appreciated that, at this point, head 15 of tethering device 5 is folded and housed within outer inserter tube 60 and the shaft of elastic filament 10 extends back through lumen 63 of inner inserter tube 62 (which is itself disposed within lumen 61 of outer inserter tube 60).
  • It will be appreciated that as a result of the foregoing construction and assembly, if and when head 64 of inner inserter tube 62 should thereafter be moved distally relative to outer inserter tube 60, the folded head 15 of elastic filament 10 will be ejected out of the distal end of outer inserter tube 60, whereby to deploy head 15 to its original pre-folded shape (FIGS. 19-21).
  • It should be appreciated that the assembly shown in FIG. 18 may be assembled at the time of use (e.g., on a “back table” in an operating room) or at the time of manufacture (in which case it is packaged and shipped in the form shown in FIG. 18).
  • This “tube-over-tube” assembly (FIG. 18) allows tethering device 5 to be quickly and easily advanced through lumen 51 of the emplaced corridor sheath 50 (FIG. 15), such that tethering device 5 can be properly positioned in the patient. More particularly, with head 15 of tethering device 5 folded and housed within lumen 61 of outer inserter tube 60, and with the shaft of elastic filament 10 extending back through lumen 63 of inner inserter tube 62, the assembly of outer inserter tube 60, tethering device 5, and inner inserter tube 62 is inserted into the proximal end of lumen 51 of corridor sheath 50 and then advanced, in a proximal-to-distal manner (FIG. 22).
  • This proximal-to-distal movement continues until the distal end of outer inserter tube 62 emerges from the distal end of corridor sheath 50 on the back side of the tongue (FIG. 23).
  • Then head 64 of inner inserter tube 62 is moved further distally until it rests against the proximal end of corridor sheath 50 (FIG. 24), causing the folded head 15 to emerge from the distal end of outer inserter tube 60, whereupon head 15 will unfold back to its original pre-folded shape due to the memory effects of stiffener 40 in head 15 (FIG. 24).
  • In this respect it will be appreciated that by forming head stiffener 40 out of a superelastic material (e.g., Nitinol or another superelastic metal alloy), the folding of head 15 in outer inserter tub 60 is facilitated, and the unfolding of head 15 as it emerges from the distal end of outer inserter tube 60 will also be facilitated.
  • In other words, outer inserter tube 60 and inner inserter tube 62 are used together to advance the folded head 15 of tethering device 5 through corridor sheath 50 (and hence through tongue T), with the head 15 of the tethering device being held in a folded condition within outer inserter tube 60 until the distal end of outer inserter tube 60 emerges from the distal end of corridor sheath 50. Inner inserter tube 62 is then used to eject folded head 15 out of the distal end of outer inserter tube 60, whereupon folded head 15 unfolds, with the unfolded head 15 residing on the far side of tongue T.
  • Once head 15 is unfolded and deployed on the far side of tongue T, inner inserter tube 62 and outer inserter tube 60 are withdrawn proximally back through corridor sheath 50, leaving elastic filament 10 extending back through lumen 51 of corridor sheath 50 (and hence elastic filament 10 extending back through tongue T).
  • Then corridor sheath 50 is removed, leaving tethering device 5 extending through tongue T, with head 15 of tethering device 5 sprung open adjacent the back of tongue T (FIG. 25).
  • Next, a bone anchor 65 is deployed in the lower mandible M (FIG. 26). Bone anchor 65 may be a so-called screw-type bone anchor or another type of bone anchor (e.g., a barb-type bone anchor, etc.). As seen in FIGS. 27-32, bone anchor 65 preferably includes a mount 66 for mounting the proximal end of elastic filament 10 to the bone anchor. Mount 66 preferably has a hole 67 and a slot 68 formed therein. A seat 69 is preferably formed at the end of slot 68. Mount 66 preferably also includes a hole 70 for securing mount 66 to bone anchor 65 via a screw 71. Mount 66 may be mounted to bone anchor 65 either before bone anchor 65 is deployed in mandible M or after bone anchor 65 has been deployed in mandible M.
  • After bone anchor 65 (and mount 66) have been secured to lower mandible M, elastic filament 10 of tethering device 5 is secured to mount 66 of bone anchor 65 under tension (FIG. 33) so that head 15 of tethering device 5 is pulled flush against the back surface of the tongue and supports the tongue from backward displacement when at rest. More particularly, elastic filament 10 of tethering device 5 is secured to bone anchor 65 by passing enlargements 20 (e.g., frustoconical enlargements) on the proximal end of filament 10 through hole 67 of mount 66 and then moving filament 10 laterally along slot 68 so as to seat an enlargement 20 in seat 69 of mount 66.
  • It will be appreciated that, as a result of the foregoing, tethering device 5 essentially elastically tethers the back of tongue T to a fixed anatomic point (i.e., the lower mandible M, where bone anchor 65 is set) using an elastic filament 10 terminating in an atraumatic head 15. With tongue T tethered in this manner, normal function of the tongue is retained (e.g., during talking and swallowing), yet rearward movement of the tongue is restrained while the patient is sleeping, thereby preventing the tongue from obstructing the supralaryngeal airway A while the patient is sleeping, and thus treating obstructive sleep apnea. And by forming head 15 out of a relatively soft, pliable, atraumatic material, reinforced by an internal head stiffener 40, head 15 will provide the necessary structural integrity while being atraumatic to the tissue. Furthermore, by virtue of the low profile of head 15 vis-à-vis the back of the tongue, the head of the tethering device does not interfere with swallowing action or breathing.
  • In the preferred form of the invention, and looking now at FIGS. 1, 2 and 5-7, a plurality of holes 71 are formed on the large disk-like structure 30 of head 15. Holes 71 can be advantageous in the event that the tethering device 5 should fail and head 15 should be aspirated, since holes 71 can prevent head 15 from completely obstructing an air passageway (which may sometimes also be referred to as an “airway”).
  • Alternatively, and looking now at FIG. 35-36 (or FIGS. 37 and 38), head 15 can be formed with the material between the lobes removed, e.g., at 75, whereby to further facilitate head folding and to further reduce the risk that head 15 could obstruct an airway in the event of device failure and aspiration. If desired, the lobes can be rounded off so as to reduce device mass and so as to render them even more atraumatic to the tissue.
  • If desired, and looking now at FIG. 39 (or FIG. 40), a rim 80 of material can extend across the open space 75 which is located between the lobes, at the periphery of the head, so as to provide additional head integrity, and rendering the head even more atraumatic, while still protecting against airway blockage in the event of device failure and aspiration.
  • In some circumstances it can be desirable to provide visual guidance to assist in proper placement of tethering device 5 within tongue T. Thus, in one preferred form of the invention, tethering device 5 is set within tongue T using X-ray visualization.
  • In another preferred form of the invention, proper placement of tethering device 5 is achieved using a light-emitting trocar. More particularly, and looking now at FIG. 41, corridor trocar 55 may include a light source 85 disposed within its distal end, and a window 90 for permitting light from light source 85 to project out the distal end of corridor trocar 55. Alternatively, and looking now at FIGS. 42 and 43), the light source may be disposed at the proximal end of corridor trocar 55 and light from the light source delivered to the distal end of corridor trocar 55 by means of an optical fiber 95 (or a light pipe, etc.). In this form of the invention, light is projected from the distal end of corridor trocar 55 while the corridor trocar (and its associated corridor sheath 50) are advanced through tongue T—as this occurs, a scope is used to observe the back of the tongue and, as the trocar nears the surface of the tissue, the light from corridor trocar 55 is used to gauge proper positioning of corridor trocar 55 (and hence its associated corridor sheath 50), whereby to ensure subsequent proper positioning of tethering device 5 within the tongue and tongue base. It is anticipated that proper placement of head 15 will be important to the effectiveness of device 5.
  • Modifications
  • While the present invention has been described in terms of certain exemplary preferred embodiments, it will be readily understood and appreciated by those skilled in the art that it is not so limited, and that many additions, deletions and modifications may be made to the preferred embodiments discussed herein without departing from the scope of the invention.

Claims (20)

What is claimed is:
1. Apparatus for treating obstructive sleep apnea, the apparatus comprising:
a tethering device comprising:
an elastic filament having a distal end and a proximal end; and
a flexible memory head mounted to the distal end of the elastic filament.
2. Apparatus according to claim 1 wherein the flexible memory head comprises a disc-like structure comprising relatively soft, pliable atraumatic material.
3. Apparatus according to claim 2 wherein the flexible memory head comprises a patterned recess and a like-patterned head stiffener received in the patterned recess.
4. Apparatus according to claim 3 wherein the elastic filament is secured to the head stiffener.
5. Apparatus according to claim 3 wherein the head stiffener comprises a multi-lobe configuration.
6. Apparatus according to claim 3 wherein the head stiffener comprises a superelastic material.
7. Apparatus according to claim 3 wherein the disc-like structure comprises a plurality of holes for passing air therethrough.
8. Apparatus according to claim 1 wherein the flexible memory head comprises a multi-lobe structure comprising a relatively soft, pliable atraumatic material.
9. Apparatus according to claim 8 wherein the flexible memory head comprises a multi-lobe recess and a multi-lobe head stiffener.
10. Apparatus according to claim 8 wherein the head stiffener comprises a superelastic material.
11. Apparatus according to claim 1 further comprising a plurality of enlargements formed at the proximal end of the elastic filament.
12. Apparatus according to claim 11 wherein the plurality of enlargements formed at the proximal end of the elastic filament are frustoconical in configuration.
13. Apparatus according to claim 1 further comprising instrumentation for deploying the tethering device through a tongue, the instrumentation comprising a corridor sheath having a lumen extending therethrough, a corridor trocar, an outer inserter tube having a lumen extending therethrough, and an inner inserter tube having a lumen extending therethrough, wherein the corridor trocar is sized to fit within the lumen of the corridor sheath, the outer inserter tube is sized to fit within the lumen of the corridor sheath, the inner inserter tube is sized to fit within the lumen of the outer inserter tube, and the lumen of the inner inserter tube is sized to receive the elastic filament therethrough.
14. Apparatus according to claim 13 wherein the corridor trocar comprises a light source.
15. Apparatus according to claim 1 further comprising a bone anchor for securing the proximal end of the elastic filament to bone.
16. Apparatus according to claim 15 further comprising a plurality of enlargements formed at the proximal end of the elastic filament, wherein the plurality of enlargements are used to secure the proximal end of the elastic filament to the bone anchor.
17. Apparatus according to claim 16 wherein the bone anchor comprises a mount having a hole and a slot formed therein, wherein the plurality of enlargements are sized to pass through the hole but are prevented from passing through the slot.
18. A method for treating obstructive sleep apnea, the method comprising:
providing a tethering device comprising:
an elastic filament having a distal end and a proximal end; and
a flexible memory head mounted to the distal end of the elastic filament;
advancing the tethering device through the tongue of a patient so that the flexible memory head of the tethering device is disposed against the back of the tongue and the elastic filament of the tethering device extends through the tongue; and
securing the proximal end of the elastic filament to the mandible of the patient under tension, whereby to restrain rearward movement of the tongue while the patient is sleeping.
19. A method according to claim 18 wherein the tethering device is advanced through the tongue of a patient using a corridor sheath having a lumen extending therethrough, a corridor trocar, an outer inserter tube having a lumen extending therethrough, and an inner inserter tube having a lumen extending therethrough, wherein the corridor trocar is sized to fit within the lumen of the corridor sheath, the outer inserter tube is sized to fit within the lumen of the corridor sheath, the inner inserter tube is sized to fit within the lumen of the outer inserter tube, and the lumen of the inner inserter tube is sized to receive the elastic filament therethrough.
20. A method according to claim 19 wherein the corridor trocar comprises a light source.
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